Element 123

The next island of stability might be an element as proposed here.
Element 123 can be called Ferrodine, after Iodine

123 Fo 305

This will be a synthetic element that is expected to be stable and non-radioactive.
The glass bead model in the figures uses green for protons and white for neutrons.

Figure 1 : 5x5x5 cube and a pyramid for 123 Fo 305 nucleus

Figure 2 : 305 baryons for element 123 nucleus

Figure 3: Silhouettes of nuclei, see red cubes

Figures 2 and 3 have allowed a theory to become evident. A neutron next to a proton allows the proton to be unaffected by touching a proton that is in a direction orthogonal to the line from the first proton to the neutron. June 26, 2017

Figure 4: Bead stacking element nucleus with cubic hexapyramid

Figure 5: Inner view of a heavy nucleus, Ferrodine, checkerboard cube

Figure 6: nucleus side view of new element that is predicted

June 30, 2017

Element 123 is expected to be ferromagnetic. That is because it is similar to Iron in these ways:

Two loops of protons are coaxial with isolated protons
The nucleus is not symmetrical in its proton allocation, loops undulate out of phase
No gaps occur between pyramids

123 Fo 305 might not be ferromagnetic because, unlike Iron, some non-coaxial isolated protons are inside the cylindrical domain made by the two loops of protons.

Figure 7: Three elements' nuclear sphere stacking

In Figure 7 notice that Iron has 12 protons in each loop, Gadolinium has 18, and Element 123 has 24 protons in each loop. Loops are the most stable type of line of protons.

July 3, 2017

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